sort by

3 publications mentioning mmu-mir-717

Open access articles that are associated with the species Mus musculus and mention the gene name mir-717. Click the [+] symbols to view sentences that include the gene name, or the word cloud on the right for a summary.

1
[+] score: 13
Other miRNAs from this paper: mmu-mir-146a, mmu-mir-122, mmu-mir-96, mmu-mir-499
Evidence also exists that miR-717 is involved in osmoregularity control and is regulated rapidly in response to high salt exposure in mice [59]. [score:2]
An example of significant difference between lean and high fat strains that differ for mmu-miR-717 SNP genotype (C>T) and fat weight, for both female and male is shown. [score:1]
To verify if these associations hold true for some other standard inbred mouse strains we searched for association between the mmu-miR-717 SNP (rs30372501) genotypes and all 2586 phenotypes within the Mouse Phenome Database (see Material and Methods). [score:1]
A genomic overlap of four layers was also identified consisting of growth associated quantitative trait locus (QTL), body mass associated Gpc3 gene, miRNA gene (mmu-miR-717), and miR-seed-SNP identified in the lean mouse strain 129/Sv [13]. [score:1]
Association analysis between mmu-miR-717 SNP genotypes in different inbred mouse strains and phenotypes within the Mouse phenome database revealed that mmu-miR-717 significantly affects several different traits. [score:1]
MiR-seed-SNP within mmu-miR-717 is associated with fat weight in mice. [score:1]
Genotype-phenotype analysis of the murine miR-seed-SNP located in mmu-miR-717 showed association with a diverse array of traits. [score:1]
0030737.g004 Figure 4MiR-seed-SNP within mmu-miR-717 is associated with fat weight in mice. [score:1]
In a recent study, Kunej et al. [13] analyzed a murine SNP (rs30372501) in mmu-miR-717 seed region which was found to be associated with leanness. [score:1]
Association between the mouse seed SNP in mmu-miR-717 (rs30372501) and phenotypes was analyzed. [score:1]
Figure S4Graphical representation of Table S2 showing association between mmu-miR-717 seed SNP rs30372501 and 363 traits clustered into 25 groups: behavior, blood-clinical chemistry, blood-hematology, blood-lipids, blood-miscellaneous, body composition, body weight size and growth, bone, brain, breathing pattern, cancer, cardiovascular, cell and tissue damage, ear, endocrine, gallbladder, immune system, ingestive preference, kidney, liver, local experiment parameter, muscle, respiratory, sensory gating and spleen. [score:1]
The following linear mo del was used in the analysis: (1)where y [ijkl] represents the observation for the traits, μ trait average, G [i] fixed effect of genotype mmu-miR-717 seed SNP rs30372501 (i = CC, TT), L [ij] nested effect of strain (j = 1−14), S [k] fixed effect of sex (k = f, m), and e [ijkl] random error. [score:1]
[1 to 20 of 12 sentences]
2
[+] score: 8
Furthermore, in this study, eight miRNAs (mmu-miR-711, mmu-miR-712, mmu-miR-713, mmu-miR-714, mmu-miR-715, mmu-miR-716, mmu-miR-717, and mmu-miR-574) were upregulated in DIO mice. [score:4]
MiR-717, which was first reported in mice, is encoded by intron 3 of the body mass -associated glypican-3 (Gpc3) gene, and it plays an important regulatory role in renal osmoregulation. [score:2]
Bioinformatics analysis enables functional annotation of MiR-717 orthologs to determine the effect of its target genes on fat-related traits [42]. [score:2]
[1 to 20 of 3 sentences]
3
[+] score: 1
Other miRNAs from this paper: hsa-let-7a-1, hsa-let-7a-2, hsa-let-7a-3, hsa-mir-15a, hsa-mir-18a, hsa-mir-33a, hsa-mir-103a-2, hsa-mir-103a-1, hsa-mir-107, mmu-mir-27b, mmu-mir-126a, mmu-mir-128-1, mmu-mir-140, mmu-mir-146a, mmu-mir-152, mmu-mir-155, mmu-mir-191, hsa-mir-10a, hsa-mir-211, hsa-mir-218-1, hsa-mir-218-2, mmu-mir-297a-1, mmu-mir-297a-2, hsa-mir-27b, hsa-mir-128-1, hsa-mir-140, hsa-mir-152, hsa-mir-191, hsa-mir-126, hsa-mir-146a, mmu-let-7a-1, mmu-let-7a-2, mmu-mir-15a, mmu-mir-18a, mmu-mir-103-1, mmu-mir-103-2, mmu-mir-342, hsa-mir-155, mmu-mir-107, mmu-mir-10a, mmu-mir-218-1, mmu-mir-218-2, mmu-mir-33, mmu-mir-211, hsa-mir-374a, hsa-mir-342, gga-mir-33-1, gga-let-7a-3, gga-mir-155, gga-mir-18a, gga-mir-15a, gga-mir-218-1, gga-mir-103-2, gga-mir-107, gga-mir-128-1, gga-mir-140, gga-let-7a-1, gga-mir-146a, gga-mir-103-1, gga-mir-218-2, gga-mir-126, gga-let-7a-2, gga-mir-27b, mmu-mir-466a, mmu-mir-467a-1, hsa-mir-499a, hsa-mir-545, hsa-mir-593, hsa-mir-600, hsa-mir-33b, gga-mir-499, gga-mir-211, gga-mir-466, mmu-mir-675, mmu-mir-677, mmu-mir-467b, mmu-mir-297b, mmu-mir-499, hsa-mir-675, mmu-mir-297a-3, mmu-mir-297a-4, mmu-mir-297c, mmu-mir-466b-1, mmu-mir-466b-2, mmu-mir-466b-3, mmu-mir-466c-1, mmu-mir-466e, mmu-mir-466f-1, mmu-mir-466f-2, mmu-mir-466f-3, mmu-mir-466g, mmu-mir-466h, mmu-mir-467c, mmu-mir-467d, mmu-mir-466d, hsa-mir-297, mmu-mir-467e, mmu-mir-466l, mmu-mir-466i, mmu-mir-466f-4, mmu-mir-466k, mmu-mir-467f, mmu-mir-466j, mmu-mir-467g, mmu-mir-467h, hsa-mir-664a, hsa-mir-1306, hsa-mir-1307, gga-mir-1306, hsa-mir-103b-1, hsa-mir-103b-2, gga-mir-10a, mmu-mir-1306, mmu-mir-3064, mmu-mir-466m, mmu-mir-466o, mmu-mir-467a-2, mmu-mir-467a-3, mmu-mir-466c-2, mmu-mir-467a-4, mmu-mir-466b-4, mmu-mir-467a-5, mmu-mir-466b-5, mmu-mir-467a-6, mmu-mir-466b-6, mmu-mir-467a-7, mmu-mir-466b-7, mmu-mir-467a-8, mmu-mir-467a-9, mmu-mir-467a-10, mmu-mir-466p, mmu-mir-466n, mmu-mir-466b-8, hsa-mir-466, hsa-mir-3173, hsa-mir-3618, hsa-mir-3064, hsa-mir-499b, mmu-mir-466q, hsa-mir-664b, gga-mir-3064, mmu-mir-126b, gga-mir-33-2, mmu-mir-3618, mmu-mir-466c-3, gga-mir-191
A similar overlap was demonstrated previously comprising a mouse miRNA gene mmu-mir-717, a miR-seed-SNP identified in the lean mouse strain 129/Sv, a body mass associated host gene Gpc3 (glypican 3), as well as a growth associated quantitative trait locus (QTL) [51]. [score:1]
[1 to 20 of 1 sentences]